SLUSEB9B december 2020 – july 2023 BQ25672
PRODUCTION DATA
PARAMETER | TEST CONDITIONS | MIN | TYP | MAX | UNIT | |
---|---|---|---|---|---|---|
QUIESCENT CURRENTS | ||||||
IQ_BAT_ON | Quiescent battery current (BATP, BAT, SYS) when the charger is in the battery only mode, battery FET is enabled, ADC is disabled | VBAT = 8V, No VBUS, BATFET is enabled, I2C enabled, ADC disabled, not in ship mode or shut down mode, system is powered by battery. TJ < 85 °C | 17 | 24 | µA | |
IQ_BAT_OFF | Quiescent battery current (BATP) for when the charger is in ship mode. | VBAT = 8V, No VBUS, I2C enabled, ADC disabled, in ship mode, TJ < 85 °C | 11 | 16 | µA | |
ISD_BAT | Shutdown battery current (BATP) when charger is in shut down mode. | VBAT = 8V, No VBUS, I2C disabled, ADC disabled, in shut down mode, TJ < 85 °C | 0.5 | 0.7 | µA | |
IQ_BAT_ON | Quiescent battery current (BATP, BAT, SYS) when the charger is in the battery only mode, battery FET is enabled, ADC is enabled | VBAT = 8V, No VBUS, I2C enabled, ADC enabled, not in ship mode or shut down mode, TJ < 85 °C | 540 | µA | ||
IQ_VBUS | Quiescent input current (VBUS) | VBUS = 15V, VBAT = 8V, charge disabled, converter switching, ISYS = 0A, OOA disabled | 3 | mA | ||
VBUS = 15V, VBAT = 8V, charge disabled, converter switching, ISYS = 0A, OOA enabled | 5 | mA | ||||
ISD_VBUS | Shutdown input current (VBUS) in HIZ | VBUS = 15V, HIZ mode, no battery, ADC disabled, ACDRV disabled | 386 | µA | ||
VBUS = 15V, HIZ mode, no battery, ADC disabled, ACDRV enabled | 590 | µA | ||||
IQ_OTG | Quiescent battery current (BATP, BAT, SYS) in OTG | VBAT = 8V, VBUS = 5V, OTG mode enabled, converter switching, IVBUS = 0A, OOA disabled | 3 | mA | ||
VBAT = 8V, VBUS = 5V, OTG mode enabled, converter switching, IVBUS = 0A, OOA enabled | 5 | mA | ||||
VBUS / VBAT SUPPLY | ||||||
VVAC_PRESENT | VAC present rising threshold to turn on the ACFET-RBFET | For both VAC1 and VAC2 | 3.4 | 3.5 | V | |
VAC present falling threshold to turn off the ACFET-RBFET | For both VAC1 and VAC2 | 3.1 | 3.2 | V | ||
VVAC_OVP | VAC overvoltage rising threshold, when VAC_OVP[1:0]=00 | For both VAC1 and VAC2 | 25.2 | 26 | 26.8 | V |
VAC overvoltage falling threshold, when VAC_OVP[1:0]=00 | For both VAC1 and VAC2 | 24.4 | 25.2 | 26.0 | V | |
VAC overvoltage rising threshold, when VAC_OVP[1:0]=01 | For both VAC1 and VAC2 | 17.4 | 18.0 | 18.6 | V | |
VAC overvoltage falling threshold, when VAC_OVP[1:0]=01 | For both VAC1 and VAC2 | 16.9 | 17.5 | 18.1 | V | |
VAC overvoltage rising threshold, when VAC_OVP[1:0]=10 | For both VAC1 and VAC2 | 11.6 | 12 | 12.4 | V | |
VAC overvoltage falling threshold, when VAC_OVP[1:0]=10 | For both VAC1 and VAC2 | 11.2 | 11.6 | 12.0 | V | |
VAC overvoltage rising threshold, when VAC_OVP[1:0]=11 | For both VAC1 and VAC2 | 6.7 | 7 | 7.3 | V | |
VAC overvoltage falling threshold, when VAC_OVP[1:0]=11 | For both VAC1 and VAC2 | 6.5 | 6.8 | 7.1 | V | |
VVBUS_OP | VBUS operating range | 3.6 | 24 | V | ||
VVBUS_UVLOZ | VBUS rising for active I2C, no battery | VBUS rising | 3.25 | 3.4 | 3.55 | V |
VVBUS_UVLO | VBUS falling to turn off I2C, no battery | VBUS falling | 3.05 | 3.2 | 3.35 | V |
VVBUS_PRESENT | VBUS to start switching | VBUS rising | 3.3 | 3.4 | 3.5 | V |
VVBUS_PRESENTZ | VBUS to stop switching | VBUS falling | 3.1 | 3.2 | 3.3 | V |
VVBUS_OVP | VBUS overvoltage rising threshold | VBUS rising | 25.2 | 25.7 | 26.2 | V |
VVBUS_OVPZ | VBUS overvoltage falling threshold | VBUS falling | 24.0 | 24.4 | 24.8 | V |
IBUS_OCP | IBUS over-current rising threshold | 7.0 | 8.0 | 9.0 | A | |
IBUS_OCPZ | IBUS over-current falling threshold | 6.5 | 7.5 | 8.5 | A | |
VBAT_UVLOZ | BAT voltage for active I2C, no VBUS, no VAC | VBAT rising, with the ship FET (SFET) installed | 3.25 | 3.40 | 3.55 | V |
VBAT rising, without the ship FET (SFET) installed | 2.50 | 2.60 | 2.71 | V | ||
VBAT_UVLO | BAT voltage to turn off I2C, no VBUS, no VAC | VBAT rising, with the ship FET (SFET) installed | 3.05 | 3.20 | 3.31 | V |
VBAT falling, without the ship FET (SFET) installed | 2.30 | 2.40 | 2.50 | V | ||
VBAT_OTG | BAT voltage rising threshold to enable OTG mode | VBAT rising | 2.7 | 2.8 | 2.9 | V |
VBAT_OTGZ | BAT voltage falling threshold to disable OTG mode | VBAT falling | 2.4 | 2.5 | 2.6 | V |
VPOORSRC | Bad adapter detection threshold | VBUS falling | 3.3 | 3.4 | 3.5 | V |
VPOORSRC | Bad adapter detection threshold hysteresis | VBUS rising above VPOORSRC | 150 | 200 | 250 | mV |
IPOORSRC | Bad adapter detection current source | 7 | 12 | 20 | mA | |
RVBUS_PD | VBUS pull down resistance | 6 | kΩ | |||
RVAC_PD | VAC pull down resistance | For both VAC1 and VAC2 | 60 | Ω | ||
VVINDPM_MPPT | VINDPM as set by the MPPT algorithm | VOC_PCT = 000 (0.5625), VOC = 18.0V | 10.125 | V | ||
VOC_PCT = 001 (0.625), VOC = 18.0V | 11.25 | V | ||||
VOC_PCT = 010 (0.6875), VOC = 18.0V | 12.375 | V | ||||
VOC_PCT = 011 (0.75), VOC = 18.0V | 13.5 | V | ||||
VOC_PCT = 100 (0.8125), VOC = 18.0V | 14.625 | V | ||||
VOC_PCT = 101 (0.875), VOC = 18.0V | 15.75 | V | ||||
VOC_PCT = 110 (0.9375), VOC = 18.0V | 16.875 | V | ||||
VOC_PCT = 111 (1.0), VOC = 18.0V | 18.0 | V | ||||
POWER-PATH MANAGEMENT | ||||||
VSYSMAX_REG_RNG | System voltage regulation range, measured on SYS | 3.2 | 19 | V | ||
VSYSMAX_REG_ACC | System voltage regulation accuracy (when VBAT>VSYSMIN, charging disabled, PFM disabled) | VBAT = 16.8V (4s default) | 16.82 | 17.00 | 17.25 | V |
VBAT = 12.6V (3s default) | 12.62 | 12.80 | 13.04 | V | ||
VBAT = 8.4V (2s default) | 8.44 | 8.60 | 8.77 | V | ||
VBAT = 4.2V (1s default) | 4.268 | 4.40 | 4.550 | V | ||
VSYSMIN_REG_RNG | VSYSMIN regulation range, measured on SYS | 2.5 | 16 | V | ||
VSYSMIN_REG_STEP | VSYSMIN regulation step size | 250 | mV | |||
VSYSMIN_REG_ACC | System voltage regulation accuracy (when VBAT<VSYSMIN) | 4s battery | 11.9 | 12.2 | 12.75 | V |
3s battery | 9.0 | 9.2 | 9.55 | V | ||
2s battery | 7.12 | 7.2 | 7.52 | V | ||
1s battery | 3.5 | 3.7 | 4.1 | V | ||
VSYS_OVP | VSYS overvoltage rising threshold | As a percentage of the system regulation voltage, to turnoff the converter. | 105.5 | 110.0 | 112.3 | % |
VSYS overvoltage falling threshold | As a percentage of the system regulation voltage, to re-enable the converter. | 95.5 | 100 | 102 | % | |
VSYS_SHORT | VSYS short voltage falling threshold | 2.1 | 2.2 | 2.3 | V | |
BATTERY CHARGER | ||||||
VREG_RANGE | Typical charge voltage regulation range | 3 | 18.8 | V | ||
VREG_STEP | Typical charge voltage step | 10 | mV | |||
VREG_ACC | Charge voltage accuracy, TJ = –40°C - 85°C | VREG = 16.8V | -0.65 | 0.55 | % | |
VREG = 12.6V | -0.85 | 0.65 | % | |||
VREG = 8.4V | -0.25 | 0.65 | % | |||
VREG = 4.2V | -0.45 | 0.95 | % | |||
ICHG_RANGE | Typical charge current regulation range | 0.05 | 3 | A | ||
ICHG_STEP | Typical charge current regulation step | 10 | mA | |||
ICHG_ACC | Typical buck mode PWM charge current accuracy, VBUS > VBAT, TJ = –40°C - 85°C | ICHG = 2A; VBAT=8V | -6.5 | 3.5 | % | |
ICHG = 1A; VBAT=8V | -5 | 5 | % | |||
ICHG = 0.5A; VBAT=8V | -7.5 | 7.5 | % | |||
IPRECHG_RANGE | Typical pre-charge current range | 40 | 2000 | mA | ||
IPRECHG_STEP | Typical pre-charge current step | 40 | mA | |||
IPRECHG_ACC | Typical LDO mode charge current accuracy when VBATP below VBAT_LOWV, VBUS > VBAT, TJ = –40°C - 85°C | IPRECHG = 1000mA, VBAT = 6.5V | -4.5 | 3.5 | % | |
IPRECHG = 480mA, VBAT = 6.5V | -8 | 8 | % | |||
IPRECHG = 200mA, VBAT = 6.5V | -20 | 20 | % | |||
IPRECHG = 120mA, VBAT = 6.5V | -30 | 30 | % | |||
ITERM_RANGE | Typical termination current range | 40 | 1000 | mA | ||
ITERM_STEP | Typical termination current step | 40 | mA | |||
ITERM_ACC | Termination current accuracy, TJ = –40°C - 85°C | ITERM = 120mA, ICHG < 1000mA | -20 | 20 | % | |
ITERM = 480mA, ICHG > 1000mA | -14 | 14 | % | |||
VBAT_SHORTZ | Battery short voltage rising threshold to start pre-charge | VBAT rising | 2.25 | V | ||
VBAT_SHORT | Battery short voltage falling threshold to stop pre-charge | VBAT falling | 2.06 | V | ||
IBAT_SHORT | Battery short trickle charging current | VBAT < VBAT_SHORTZ | 100 | mA | ||
VBAT_LOWV_RISE | Battery voltage rising threshold to start fast-charge, as percentage of VREG | VBAT_LOWV_1:0=00 | 13 | 15 | 17 | % |
VBAT_LOWV_1:0=01 | 61.5 | 63.0 | 64.5 | % | ||
VBAT_LOWV_1:0=10 | 67.0 | 68.0 | 69.0 | % | ||
VBAT_LOWV_1:0=11 | 71.0 | 72.5 | 74.0 | % | ||
VBAT_LOWV_HYS | Battery voltage threshold hysteresis to stop fast-charge on falling edge | VBAT falling, as percentage of VREG, VBAT_LOWV_1:0=11 | 1.4 | % | ||
VRECHG | Battery recharge threshold | VBAT falling, VRECHG=0011, VREG=8.4V | 200 | mV | ||
VBAT falling, VRECHG=0111, VREG=16.8V | 400 | mV | ||||
IBAT_LOAD | Battery discharge load current | 30 | mA | |||
ISYS_LOAD | System discharge load current | 30 | mA | |||
RBATP | BATP Input Resistance | 2.5 | MΩ | |||
BATFET | ||||||
RBATFET | MOSFET on resistance from SYS to BAT | 11 | mΩ | |||
BATTERY PROTECTIONS | ||||||
VBAT_OVP | Battery overvoltage threshold | VBAT rising, as percentage of VREG | 103 | 104 | 105 | % |
VBAT falling, as percentage of VREG | 101 | 102 | 103 | % | ||
VBAT_SHORT | Battery short voltage | VBAT falling, to clamp the charging current as trickle charging current. | 2.06 | V | ||
VBAT rising, to release the trickle charging current clamp | 2.25 | V | ||||
IBAT_OCP | Battery discharging over-current rising threshold | 9.3 | A | |||
INPUT VOLTAGE / CURRENT REGULATION | ||||||
VINDPM_RANGE | Typical input voltage regulation range | 3.6 | 22 | V | ||
VINDPM_STEP | Typical input voltage regulation step | 100 | mV | |||
VINDPM_ACC | Input voltage regulation accuracy | VINDPM=18.6V | -2 | 2 | % | |
VINDPM=10.6V | -3 | 3 | % | |||
VINDPM=4.3V | -5 | 5 | % | |||
IINDPM_RANGE | Typical input current regulation range | 0.1 | 3.3 | A | ||
IINDPM_STEP | Typical input current regulation step | 10 | mA | |||
IINDPM_ACC | Input current regulation accuracy | IINDPM = 500mA, VBUS=9V, TJ > -20°C | 415 | 460 | 500 | mA |
IINDPM = 1000mA, VBUS=9V, TJ > -20°C | 880 | 940 | 1000 | mA | ||
IINDPM = 2000mA, VBUS=9V, TJ > -20°C | 1800 | 1880 | 1960 | mA | ||
IINDPM = 3000mA, VBUS=9V, TJ > -20°C | 2720 | 2820 | 2920 | mA | ||
VILIM_REG_RNG | Voltage range for input current regultion at ILIM_HIZ pin | 1 | 4 | V | ||
ILEAK_ILIM | ILIM_HIZ pin leakage current | VILIM_HIZ = 4V | -1.5 | 1.5 | µA | |
D+ / D- DETECTION | ||||||
VD+ _600MVSRC | D+ voltage source (600 mV) | 500 | 600 | 700 | mV | |
ID+_10UASRC | D+ current source (10 µA) | VD+ = 200 mV, | 7 | 10 | 14 | µA |
ID+_100UASNK | D+ current sink (100 µA) | VD+ = 500 mV, | 50 | 90 | 150 | µA |
VD+_0P325 | D+ comparator threshold for Secondary Detection | D+ pin rising | 250 | 400 | mV | |
VD+_0P8 | D+ comparator threshold for Data Contact Detection | D+ pin rising | 775 | 850 | 925 | mV |
ID+_LKG | Leakage current into D+ | HIZ mode | -1 | 1 | µA | |
VD-_600MVSRC | D- voltage source (600 mV) | 500 | 600 | 700 | mV | |
ID-_100UASNK | D- current sink (100 µA) | VD- = 500 mV, | 50 | 90 | 150 | µA |
VD-_0P325 | D- comparator threshold for Primary Detection | D- pin Rising | 250 | 400 | mV | |
ID-_LKG | Leakage current into D- | HIZ mode | -1 | 1 | µA | |
RD-_19K | D- resistor to ground (19 kΩ) | VD- = 500mV | 14.25 | 24.8 | kΩ | |
VD+ _2p8 | D+ comparator threshold for non-standard adapter | (combined VD+_2p8_hi and VD+_2p8_lo) | 2.55 | 2.85 | V | |
VD- _2p8 | D- comparator threshold for non-standard adapter | (combined VD-_2p8_hi and VD-_2p8_lo) | 2.55 | 2.85 | V | |
VD+ _2p0 | D+ comparator threshold for non-standard adapter | (combined VD+_2p0_hi and VD+_2p0_lo) | 1.85 | 2.15 | V | |
VD- _2p0 | D- comparator threshold for non-standard adapter | (combined VD-_2p0_hi and VD-_2p0_lo) | 1.85 | 2.15 | V | |
VD+ _1p2 | D+ comparator threshold for non-standard adapter | (combined VD+_1p2_hi and VD+_1p2_lo) | 1.05 | 1.35 | V | |
VD- _1p2 | D- comparator threshold for non-standard adapter | (combined VD-_1p2_hi and VD-_1p2_lo) | 1.05 | 1.35 | V | |
THERMAL REGULATION AND THERMAL SHUTDOWN | ||||||
TREG | Junction temperature regulation accuracy | TREG = 120°C | 120 | °C | ||
TREG = 100°C | 100 | °C | ||||
TREG = 80°C | 80 | °C | ||||
TREG = 60°C | 60 | °C | ||||
TSHUT | Thermal shutdown rising threshold | Temperature increasing (TSHUT[1:0]=00) | 150 | °C | ||
Temperature increasing (TSHUT[1:0]=01) | 130 | °C | ||||
Temperature increasing (TSHUT[1:0]=10) | 120 | °C | ||||
Temperature increasing (TSHUT[1:0]=11) | 85 | °C | ||||
TSHUT_HYS | Thermal shutdown falling hysteresis | Temperature decreasing by TSHUT_HYS | 30 | °C | ||
JEITA THERMISTOR COMPARATOR (CHARGE MODE) | ||||||
VT1_RISE | T1 comparator rising threshold. Charge is suspended above this voltage. | As Percentage to REGN (0°C w/ 103AT) | 72.4 | 73.3 | 74.2 | % |
VT1_FALL | T1 comparator falling threshold. Charge is re-enabled below this voltage. | As Percentage to REGN (3°C w/ 103AT) | 71.5 | 72 | 72.5 | % |
VT2_RISE | T2 comparator rising threshold. | As Percentage of REGN, JEITA_T2=5°C w/ 103AT | 70.6 | 71.1 | 71.6 | % |
As Percentage of REGN, JEITA_T2=10°C w/ 103AT | 67.9 | 68.4 | 68.9 | % | ||
As Percentage of REGN, JEITA_T2=15°C w/ 103AT | 65.0 | 65.5 | 66.0 | % | ||
As Percentage of REGN, JEITA_T2=20°C w/ 103AT | 61.9 | 62.4 | 62.9 | % | ||
VT2_FALL | T2 comparator falling threshold. | As Percentage of REGN, JEITA_T2=5°C w/ 103AT | 69.3 | 69.8 | 70.3 | % |
As Percentage of REGN, JEITA_T2=10°C w/ 103AT | 66.6 | 67.1 | 67.6 | % | ||
As Percentage of REGN, JEITA_T2=15°C w/ 103AT | 63.7 | 64.2 | 64.7 | % | ||
As Percentage of REGN, JEITA_T2=20°C w/ 103AT | 60.6 | 61.1 | 61.6 | % | ||
VT3_RISE | T3 comparator rising threshold. | As Percentage of REGN, JEITA_T3=40°C w/ 103AT | 49.2 | 49.7 | 50.2 | % |
As Percentage of REGN, JEITA_T3=45°C w/ 103AT | 45.6 | 46.1 | 46.6 | % | ||
As Percentage of REGN, JEITA_T3=50°C w/ 103AT | 42.0 | 42.5 | 43.0 | % | ||
As Percentage of REGN, JEITA_T3=55°C w/ 103AT | 38.5 | 39 | 39.5 | % | ||
VT3_FALL | T3 comparator falling threshold. | As Percentage of REGN, JEITA_T3=40°C w/ 103AT | 47.9 | 48.4 | 48.9 | % |
As Percentage of REGN, JEITA_T3=45°C w/ 103AT | 44.3 | 44.8 | 45.3 | % | ||
As Percentage of REGN, JEITA_T3=50°C w/ 103AT | 40.7 | 41.2 | 41.7 | % | ||
As Percentage of REGN, JEITA_T3=55°C w/ 103AT | 37.2 | 37.7 | 38.2 | % | ||
VT5_FALL | T5 comparator falling threshold. Charge is suspended below this voltage. | As Percentage of REGN (60°C w/ 103AT) | 33.7 | 34.2 | 34.7 | % |
VT5_RISE | T5 comparator rising threshold. Charge is re-enabled above this voltage. | As Percentage of REGN (58°C w/ 103AT) | 35 | 35.5 | 36 | % |
COLD / HOT THERMISTOR COMPARATOR (OTG MODE) | ||||||
VBCOLD_RISE | TCOLD comparator rising threshold. | As Percentage of REGN (–20°C w/ 103AT) | 79.5 | 80.0 | 80.5 | % |
As Percentage of REGN (–10°C w/ 103AT) | 76.6 | 77.1 | 77.6 | % | ||
VBCOLD_FALL | TCOLD comparator falling threshold. | As Percentage of REGN (–20°C w/ 103AT) | 78.2 | 78.7 | 79.2 | % |
As Percentage of REGN (–10°C w/ 103AT) | 75.3 | 75.8 | 76.3 | % | ||
VBHOT_FALL | THOT comparator falling threshold. | As Percentage of REGN, (55°C w/ 103AT) | 37.2 | 37.7 | 38.2 | % |
As Percentage of REGN, (60°C w/ 103AT) | 33.9 | 34.4 | 34.9 | % | ||
As Percentage of REGN, (65°C w/ 103AT) | 30.8 | 31.3 | 31.8 | % | ||
VBHOT_RISE | THOT comparator rising threshold. | As Percentage of REGN, (55°C w/ 103AT) | 38.8 | 39.3 | 39.8 | % |
As Percentage of REGN, (60°C w/ 103AT) | 35.2 | 35.7 | 36.2 | % | ||
As Percentage of REGN, (65°C w/ 103AT) | 32.0 | 32.5 | 33.0 | % | ||
SWITCHING CONVERTER | ||||||
FSW | PWM switching frequency | Oscillator frequency | 1.5 | MHz | ||
750 | kHz | |||||
SENSE RESISTANCE AND MOSFET RDSON | ||||||
RSNS | VBUS to PMID input sensing resistance | Tj = -40°C-85°C (typical value is under 25°C) | 8 | mΩ | ||
RQ1_ON | Buck high-side switching MOSFET turnon resistance between PMID and SW1 | Tj = -40°C-85°C (typical value is under 25°C) | 24 | mΩ | ||
RQ2_ON | Buck low-side switching MOSFET turnon resistance between SW1 and PGND | Tj = -40°C-85°C (typical value is under 25°C) | 35 | mΩ | ||
RQ3_ON | Boost low-side switching MOSFET turnon resistance between SW2 and PGND | Tj = -40°C-85°C (typical value is under 25°C) | 28 | mΩ | ||
RQ4_ON | Boost high-side switching MOSFET turnon resistance between SW2 and SYS | Tj = -40°C-85°C (typical value is under 25°C) | 17 | mΩ | ||
OTG MODE CONVERTER | ||||||
VOTG_RANGE | Typical OTG mode voltage regulation range | 5 | 12 | V | ||
VOTG_STEP | Typical OTG mode voltage regulation step | 10 | mV | |||
VOTG_ACC | OTG mode voltage regulation accuracy | IVBUS = 0A, VOTG = 20V | -3.5 | 3 | % | |
IVBUS = 0A, VOTG = 12V | -3.5 | 3 | % | |||
IVBUS = 0A, VOTG = 5V | -3.5 | 3 | % | |||
IOTG_RANGE | Typical OTG mode current regulation range | 0.12 | 3.32 | A | ||
IOTG_STEP | Typical OTG mode current regulation step | 40 | mA | |||
IOTG_ACC | OTG mode current regulation accuracy | VBUS = 9V, IOTG = 3.0A | -2.2 | 2.2 | % | |
VBUS = 9V, IOTG = 1.52A | -5 | 3 | % | |||
VBUS = 9V, IOTG = 0.52A | -15 | 8 | % | |||
VOTG_UVP | OTG mode under voltage falling threshold | 2.1 | 2.2 | 2.3 | V | |
VOTG_OVP | OTG mode overvoltage rising threshold | As percentage of VOTG regulation, OTG mode OOA disabled. | 104 | 113 | 120 | % |
OTG mode overvoltage falling threshold | As percentage of VOTG regulation | 90 | 98 | 104 | % | |
IOTG_BAT | Battery current regulation in OTG mode | IBAT_REG_1:0 = 00, VBAT=8V, VOTG=9V | 2.8 | 3 | 3.2 | A |
IBAT_REG_1:0 = 01, VBAT=8V, VOTG=9V | 3.8 | 4 | 4.2 | A | ||
IBAT_REG_1:0 = 10, VBAT=8V, VOTG=9V | 4.8 | 5 | 5.3 | A | ||
REGN LDO | ||||||
VREGN | REGN LDO output voltage | VVBUS = 5V, IREGN = 20mA | 4.6 | 4.8 | 5 | V |
VVBUS = 15V, IREGN = 20mA | 4.8 | 5 | 5.2 | V | ||
IREGN | REGN LDO current limit | VVBUS = 5V, VREGN = 4.5V | 30 | mA | ||
I2C INTERFACE (SCL, SDA) | ||||||
VIH_SDA | Input high threshold level, SDA | Pull up rail 1.8V | 1.3 | V | ||
VIL_SDA | Input low threshold level | Pull up rail 1.8V | 0.4 | V | ||
VOL_SDA | Output low threshold level | Sink current = 5mA | 0.4 | V | ||
IBIAS_SDA | High-level leakage current | Pull up rail 1.8V | 1 | µA | ||
VIH_SCL | Input high threshold level, SDA | Pull up rail 1.8V | 1.3 | V | ||
VIL_SCL | Input low threshold level | Pull up rail 1.8V | 0.4 | V | ||
IBIAS_SCL | High-level leakage current | Pull up rail 1.8V | 1 | µA | ||
LOGIC I PIN (CE, ILIM_HIZ, QON) | ||||||
VIH_CE | Input high threshold level, CE | 1.3 | V | |||
VIL_CE | Input low threshold level, CE | 0.4 | V | |||
IIN_BIAS_CE | High-level leakage current, CE | Pull up rail 1.8V | 1 | µA | ||
VIH_QON | Input high threshold level, QON | 1.3 | V | |||
VIL_QON | Input low threshold level, QON | 0.4 | V | |||
VQON | Internal QON pull up | QON is pulled up internally | 3.2 | V | ||
RQON | Internal QON pull up resistance | 200 | kΩ | |||
VIH_ILIM_HIZ | Input high threshold level, ILIM_HIZ | 1 | V | |||
VIL_ILIM_HIZ | Input low threshold level, ILIM_HIZ | 0.75 | V | |||
LOGIC O PIN (INT, STAT) | ||||||
VOL_INT | Output low threshold level, INT | Sink current = 5mA | 0.4 | V | ||
IOUT_BIAS_INT | High-level leakage current, INT | Pull up rail 1.8V | 1 | µA | ||
VOL_STAT | Output low threshold level, STAT | Sink current = 5mA | 0.4 | V | ||
IOUT_BIAS_STAT | High-level leakage current, STAT | Pull up rail 1.8V | 1 | µA | ||
ADC MEASUREMENT ACCURACY AND PERFORMANCE | ||||||
tADC_CONV | Conversion time, each measurement | ADC_SAMPLE[1:0] = 00 | 24 | ms | ||
ADC_SAMPLE[1:0] = 01 | 12 | ms | ||||
ADC_SAMPLE[1:0] = 10 | 6 | ms | ||||
ADC_SAMPLE[1:0] = 11 (Not recommended) | 3 | ms | ||||
ADCRES | Effective resolution | ADC_SAMPLE[1:0] = 00 | 14 | 15 | bits | |
ADC_SAMPLE[1:0] = 01 | 13 | 14 | bits | |||
ADC_SAMPLE[1:0] = 10 | 12 | 13 | bits | |||
ADC_SAMPLE[1:0] = 11 (Not recommended) | 10 | 11 | bits | |||
ADC MEASUREMENT RANGE AND LSB | ||||||
IBUS_ADC | ADC VBUS current reading (forward and OTG) | Range | 0 | 5 | A | |
LSB | 1 | mA | ||||
VBUS_ADC | ADC VBUS voltage reading | Range | 0 | 30 | V | |
LSB | 1 | mV | ||||
VAC_ADC | ADC VAC voltage reading | Range | 0 | 30 | V | |
LSB | 1 | mV | ||||
VBAT_ADC | ADC BAT voltage reading | Range | 0 | 20 | V | |
LSB | 1 | mV | ||||
VSYS_ADC | ADC SYS voltage reading | Range | 0 | 24 | V | |
LSB | 1 | mV | ||||
IBAT_ADC | ADC BAT current reading | Range | 0 | 8 | A | |
LSB | 1 | mA | ||||
TS_ADC | ADC TS voltage reading range | Range | 0 | 99.9 | % | |
LSB | 0.098 | % | ||||
TDIE_ADC | ADC die temperature reading range | Range | -40 | 150 | °C | |
LSB | 0.5 | °C |